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C57BL/6NCya-Gspt2em1/Cya
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C57BL/6NCya-Gspt2em1/Cya

Common Name
Gspt2-KO
Product ID
S-KO-02351
Backgroud
C57BL/6NCya
Strain ID
KOCMP-14853-Gspt2-B6N-VA
Status
Research and Development
When using this mouse strain in a publication, please cite “Gspt2-KO Mouse (Catalog S-KO-02351) were purchased from Cyagen.”
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The standard delivery applies for a guaranteed minimum of three heterozygous carriers. Breeding services for homozygous carriers and/or specified sex are available.
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Basic Information
Strain Name
Gspt2-KO
Strain ID
KOCMP-14853-Gspt2-B6N-VA
Gene Name
Gspt2
Product ID
S-KO-02351
Gene Alias
--
Background
C57BL/6NCya
Gene Full Name
G1 to S phase transition 2
Modification
Conventional knockout
NCBI ID
14853 (Mouse)
Phenotype
MGI:1316727
Chromosome
Chr X (Mouse)
Application
--
Datasheet
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Strain Description
Ensembl Transcript ID
ENSMUST00000096368
NCBI Transcript ID
NM_008179
Target Region
Exon 1
Size of Effective Region
~1.9 kb
Overview of Gene Research
Gspt2, also known as eukaryotic peptide chain release factor GTP-binding subunit eRF3b, is involved in the termination of protein synthesis in eukaryotes. It is one of the two mammalian genes encoding eRF3 structural homologues, with the other being Gspt1. It may interact with eRF1 to function as eRF3 in mammalian cells, and its mRNA is differentially expressed in various tissues, with relatively abundant levels in the brain [1,4].

Mouse studies have shown that Gspt2, but not Gspt1, can functionally substitute the essential yeast gene SUP35, indicating functional differences between the two proteins [1]. In humans, deletions of Xp11.22 region encompassing Gspt2 are associated with syndromic X-linked intellectual disability, suggesting that loss-of-function of Gspt2 may contribute to intellectual disability and developmental delay [2,5]. Also, Gspt2 has been identified as a biomarker for hepatocellular carcinoma, promoting HepG2 cells' entrance into the S-phase and influencing the phosphorylation status of 4E-BP1 [3].

In conclusion, Gspt2 plays a crucial role in protein translation termination and has implications in human diseases such as X-linked intellectual disability and hepatocellular carcinoma. Studies, including those using mouse models substituting yeast genes, have provided insights into its unique functions, highlighting its significance in understanding biological processes and disease mechanisms.

References:
1. Le Goff, Catherine, Zemlyanko, Olga, Moskalenko, Svetlana, Philippe, Michel, Zhouravleva, Galina. . Mouse GSPT2, but not GSPT1, can substitute for yeast eRF3 in vivo. In Genes to cells : devoted to molecular & cellular mechanisms, 7, 1043-57. doi:. https://pubmed.ncbi.nlm.nih.gov/12354098/
2. Grau, Christina, Starkovich, Molly, Azamian, Mahshid S, Lalani, Seema R, Scott, Daryl A. 2017. Xp11.22 deletions encompassing CENPVL1, CENPVL2, MAGED1 and GSPT2 as a cause of syndromic X-linked intellectual disability. In PloS one, 12, e0175962. doi:10.1371/journal.pone.0175962. https://pubmed.ncbi.nlm.nih.gov/28414775/
3. Li, Man, Wang, Jian, Yang, Lei, Tian, Qing-Bao, Liu, Dian-Wu. 2014. eRF3b, a biomarker for hepatocellular carcinoma, influences cell cycle and phosphoralation status of 4E-BP1. In PloS one, 9, e86371. doi:10.1371/journal.pone.0086371. https://pubmed.ncbi.nlm.nih.gov/24466059/
4. Hoshino, S, Imai, M, Mizutani, M, Ui, M, Katada, T. . Molecular cloning of a novel member of the eukaryotic polypeptide chain-releasing factors (eRF). Its identification as eRF3 interacting with eRF1. In The Journal of biological chemistry, 273, 22254-9. doi:. https://pubmed.ncbi.nlm.nih.gov/9712840/
5. Al-Shehhi, Halima, Gabr, Ahlam, Al-Haddabi, Intisar, Al-Maamari, Watfa, Al-Maawali, Almundher. . Further Clinical and Molecular Delineation of Xp11.22 Deletion Syndrome: A Case Report. In Oman medical journal, 34, 460-463. doi:10.5001/omj.2019.83. https://pubmed.ncbi.nlm.nih.gov/31555424/
Quality Control Standard
Sperm Test

Pre-cryopreservation: Measurement of sperm concentration, determination of sperm viability.

Post-cryopreservation: A vial of cryopreserved sperms is selected for in-vitro fertilization from each batch.

Environmental Standards:SPF
Available Region:Global
Source:Cyagen
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Global Antibody Drug Industry Development BlueBook (Frost & Sullivan)
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The industry is undergoing a rapid transformation driven by next-generation modalities, globalized markets, and upstream technological innovations.
  • Market Structural Shift: Monoclonal antibodies drive steady growth, but ADCs and bispecifics are rapidly accelerating, reshaping the market with higher-value innovations.
  • Chinese Market Globalization: China is actively expanding globally, evidenced by a surge in high-value cross-border license-out deals.
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